Quantum calibrated magnetic force microscopy


Abstract in English

We report the quantum calibration of a magnetic force microscope (MFM) by measuring the two-dimensional magnetic stray field distribution of the tip MFM using a single nitrogen vacancy (NV) center in diamond. From the measured stray field distribution and the mechanical properties of the cantilever a calibration function is derived allowing to convert MFM images in quantum calibrated stray field maps. This novel approach overcomes limitations of prior MFM calibration schemes and allows quantum calibrated nanoscale stray field measurements in a field range inaccessible by scanning NV magnetometry. Quantum calibrated measurements of a stray field reference sample allow its use as a transfer standard opening the road towards fast and easily accessible quantum traceable calibration of virtually any MFM.

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